Showing posts with label Electricity. Show all posts
Showing posts with label Electricity. Show all posts

24 May 2022

Alessandro Cruto - inventor

Produced light bulb hailed as better than Edison’s

Alessandro Cruto was always fascinated by science
Alessandro Cruto was always
fascinated by science
The inventor Alessandro Cruto, whose attempts to create artificial diamonds instead led him to develop a light bulb that outperformed that of his contemporary, Thomas Edison, was born on this day in 1847 in Piossasco, a village near Turin.

Younger than his American counterpart by just three months, Cruto hit upon his idea after attending a conference held by Galileo Ferraris, the pioneer of alternating current, where Edison’s attempts to find a suitable filament for incandescent light bulbs were discussed.

Cruto eventually opened a factory that eventually made up to 1,000 light bulbs per day but quit the company after seven years to return to his first love, inventing.

The son of a construction foreman, Cruto enrolled at the University of Turin to study architecture but was more interested in attending physics and chemistry lectures, eager to advance his knowledge. It was after attending one of these lectures that he hit upon the idea that he could produce artificial diamonds by crystallising carbon.

In 1872, he opened a small workshop in his home village. In the September of the following year, his experiments resulted in him creating a dense carbon material that was hard enough to scratch glass. But it did not resemble anything that could be recognised as a synthetic diamond.

An example of the light bulbs created by Cruto
An example of the light
bulbs created by Cruto
He continued to study this material for many years. In 1879, on his 32nd birthday, he attended the conference hosted by Ferraris and realised the graphite he had created might be a suitable material for an effective filament for an electric light bulb.

Cruto's process resulted in the deposition of graphite on thin platinum filaments in the presence of gaseous hydrocarbons. Subjected to high temperatures, this created thin filaments of super-pure graphite. 

In 1882, he attended the Electricity Expo at Munich, where his graphite filaments, which produced a strong, white light, outperformed Edison’s carbon-coated bamboo filaments, which gave off a rather less effective yellow light and burnt out more quickly. 

The following year, Cruto’s bulbs illuminated the centre of Piossasco, enabling his home village to claim to be the first in Italy to be illuminated by electricity, rather than by the dim gas lamps that until then were the sole source of light in Italy’s towns and cities once the sun had gone down.

After exhibiting again at the Turin Expo in 1884, he generated sufficient interest that he decided to produce bulbs on a commercial scale.

Cruto established a manufacturing plant in order to make light bulbs on a commercial scale
Cruto established a manufacturing plant in order
to make light bulbs on a commercial scale
A year later, having found a suitable site for a production facility a short distance from Piossasco at Alpignano, he opened his factory under the name of A Cruto and Company.

With limited financial backing, the odds against his company becoming the dominant player in the light bulb market even in Italy were long. With much more financial muscle, the Italian Edison Company was too big a competitor. Edison installed a thermo-electric power station in Milan and supplied the bulbs for all the properties it served.

Cruto remained at the helm of his business until 1889 and only when its output hit 1,000 light bulbs a day did he take a step back. In 1893, after some major disagreements with managers he had appointed in his place, he resigned in order to return to his workshop to focus on new inventions.

The factory was sold a number of times, went bankrupt and was eventually acquired by Philips in 1927.  The Cruto name remained in use for some years after Alessandro had ceased to be involved, with examples in existence that were manufactured as late as 1902.

Cruto spent the rest of his days dividing his time between his family and his workshop. He died in 1908, his important contribution to the development of artificial light largely forgotten.

The Church of San Vito dominates the parish of the same name in Piossasco
The Church of San Vito dominates the parish
of the same name in Piossasco
Travel tip:

Piossasco, where Alessandro Cruto was born and opened his first workshop, is a town not far from Turin, halfway between Turin and the beautiful and elegant town of Pinerolo, famous for being the ‘home’ of panettone and other enriched breads. A village when Cruto was growing up, it has expanded into a town of more than 18,000 people. Situated about 20km (12 miles) southwest of the Piedmont capital, Piossasco overlooks the beautiful Parco Naturale del Monte San Giorgio, and has some notable historic buildings such as the Castello Ai Nove Merli di Piossasco, which has medieval origins and occupies a panoramic position commanding sweeping views of the Pinerolese and Valsusa areas. The San Vito parish of Piossasco is notable for the church of the same name, which evolved from a former monastery and was largely built at the end of the 16th century with a Baroque facade added in the 19th century.

Turin is famous for its Savoy palaces,  including the 16th century Palazzo Reale
Turin is famous for its Savoy palaces, 
including the 16th century Palazzo Reale
Travel tip:

The city of Turin, once the capital of Italy and traditionally seat of the Savoy dynasty, is best known for its royal palaces but tends to be overlooked by visitors to Italy, especially new ones, who flock first to Rome, Florence, Venice and Milan. Yet as an elegant, stylish and sophisticated city, Turin has much to commend it, from its many historic cafés to 12 miles of arcaded streets and some of the finest restaurants in Piedmont. To enjoy Turin’s café culture, head for Via Po, Turin’s famous promenade linking Piazza Vittorio Veneto with Piazza Castello, or nearby Piazza San Carlo, one of the city’s main squares. In the 19th century, these cafès were popular with writers, artists, philosophers, musicians and politicians among others, who would meet to discuss the affairs of the day.

Also on this day:

1494: The birth of painter Jacopo Carucci da Pontormo

1671: The birth of Gian Gastone de' Medici, the seventh and last Grand Duke of Tuscany

1796: The birth of Charles Emmanuel IV, King of Sardinia

1949: The birth of film producer and football club owner Aurelio De Laurentiis

1981: The birth of celebrity chef Simone Rugiati


Home




25 April 2019

Giovanni Caselli - inventor

Priest and physicist who created world’s first ‘fax' machine


Although Caselli was ordained as a priest in 1836 he devoted his life to the study of science
Although Caselli was ordained as a priest in
1836 he devoted his life to the study of science
Giovanni Caselli, a physics professor who invented the pantelegraph, the forerunner of the modern fax machine, was born on this day in 1815 in Siena.

Caselli developed a prototype pantelegraph, which was capable of transmitting handwriting and images over long distances via wire telegraph lines, in 1856, some 20 years ahead of the patenting of Alexander Graham Bell’s telephone in the United States. It entered commercial service in France in 1865.

The technology was patented in Europe and the United States in the 1860s, when it was also trialled in Great Britain and Russia, but ultimately in proved too unreliable to achieve universal acceptance and virtually disappeared from popular use until midway through the 20th century.

Caselli spent his early years in Florence studying physics, science, history and religion and was ordained as a priest in the Catholic Church when he was 21.

In 1841 he was appointed tutor to the sons of Count Marquis Sanvitale of Modena in Parma, where he spent eight years before his time there was abruptly ended by expulsion from the city as a result of his participation in an uprising against the ruling House of Austria-Este.

A model of Caselli's device can be seen at the Leonardo da Vinci museum in Milan
A model of Caselli's device can be seen
at the Leonardo da Vinci museum in Milan 
He returned to Florence in 1849, when he became a professor of physics at the University of Florence.  It was at this time that he began to study electrochemistry, electromagnetism, electricity and magnetism. He also launched a journal with the intention of explaining the science of physics in layman's terms.

Alexander Bain and Frederick Bakewell were two other physicists working on similar technology at the same time as Caselli but were unable to achieve the necessary synchronization between the transmitting and receiving parts so they would work together correctly. Caselli, though, built in a regulating clock that made the sending and receiving mechanisms work together.

In Caselli’s device, an image was made using non-conductive ink on tin foil, over which a stylus passed, lightly touching the foil, which conducted electricity where there was no ink and not where there was ink, causing circuit breaks that matched the image.

The signals were then sent along a long distance telegraph line to a receiver, where an electrical stylus reproduced the image line-by-line using blue dye ink on white paper.

In 1856, Caselli presented his prototype to Leopold II, Grand Duke of Tuscany, who was impressed enough to give Caselli some financial support, before he moved to Paris to introduce his invention to Napoleon III.

A 'fax' message that was transmitted between Paris and Lyon using Caselli's pantelegraph in 1862
A 'fax' message that was transmitted between Paris and
Lyon using Caselli's pantelegraph in 1862
Napoleon embraced the technology with great enthusiasm, and between 1857 and 1861 Caselli worked on perfecting his pantelegraph, sometimes known as the Autotelegraph or Universal Telegraph, with the French mechanical engineer Léon Foucault.

After seeing a demonstration of Caselli's improved pantelegraph in 1860, Napoleon gave Caselli the chance to test in within the French national telegraph network, providing him with financial backing. Among the successful tests was one between Paris and Amiens, over a distance of 140km (87 miles) of a document bearing the signature of the composer Gioachino Rossini. 

After a further successful test between Paris and Marseille, commercial operations started in 1865, first between Paris and Lyon line, extending to Marseille in 1867.

After patenting his device in Europe in 1861 the United States in 1863, and receiving the Legion d’Honneur from Napoleon in recognition for his work, Caselli oversaw trials in England and Russia, where Tsar Alexander II used the system to send documents between his palaces in Saint Petersburg and Moscow between 1861 and 1865.

In the first year of operation, Caselli’s pantelegraph transmitted almost 5,000 'faxes'.

Yet Caselli could not develop the technology quickly enough for reliability issues to be solved and eventually interest in it began to decline to the extent that he effectively abandoned it and returned to Florence, where he died in 1891 at the age of 76.

Although in the 1920s, the AT & T Corporation developed a way to transmit images using radio signals, it was not until 1964 that the Xerox Corporation introduced the first commercial fax machine of the kind recognisable today.

Many of Caselli’s patents, letters and proofs of teleautographic transmission are kept at the municipal library of Siena. Others can be found in the archives of the Museo Galileo in Florence.

The shell-shaped Piazza del Campo in Siena is regarded as one of the finest medieval squares in Europe
The shell-shaped Piazza del Campo in Siena is regarded
as one of the finest medieval squares in Europe
Travel tip: 

Siena, where Caselli was born, is famous for its shell-shaped Piazza del Campo, established in the 13th century as an open marketplace on a sloping site between the three communities that eventually merged to form Siena. It is regarded as one of Europe's finest medieval squares. The red brick paving, put down in 1349, fans out from the centre in nine sections. It has become well known as the scene of the historic horse race, the Palio di Siena.  Siena also has a beautiful Duomo - the Cathedral of St Mary of the Assumption - which was designed and completed between 1215 and 1263, its façade built in Tuscan Romanesque style using polychrome marble.


Piazza San Marco in Florence, a short distance from the centre of the city, is the home of the University of Florence
Piazza San Marco in Florence, a short distance from the centre
of the city, is the home of the University of Florence
Travel tip:

The University of Florence, the headquarters of which is in Piazza San Marco in the centre of the city, can trace its roots to the Studium Generale, which was established by the Florentine Republic in 1321. The Studium was recognized by Pope Clement VI in 1349, and included Italy’s first faculty of theology. The Studium became an imperial university in 1364, but was moved to Pisa in 1473 when Lorenzo the Magnificent gained control of Florence. Charles VIII moved it back from 1497–1515, but it was moved to Pisa again when the Medici family returned to power.  The modern university dates from 1859, when a group of institutions formed the Istituto di Studi Pratici e di Perfezionamento, which a year later was recognized as a full-fledged university, and renamed as the University of Florence in 1923.


More reading:

Antonio Meucci - the 'true' inventor of the telephone

Innocenzo Manzetti, the inventor who may have produced the first prototype telephone

The Italian physicist who pioneered the alternating current (AC) system

Also on this day:

Festa della Liberazione

1472: The death of Renaissance polymath Leon Battista Alberti

1973: The death of World War One flying ace Ferruccio Ranza

Home

31 October 2018

Galileo Ferraris - electrical engineer

Pioneer of alternating current (AC) systems


The engineer Galileo Ferraris saw himself as a scientist rather than an entrepreneur
The engineer Galileo Ferraris saw himself
as a scientist rather than an entrepreneur
The physicist and electrical engineer Galileo Ferraris, who was one of the pioneers of the alternating current (AC) system for transmitting electricity and invented the first alternators and induction motors, was born on this day in 1847 in Piedmont.

The AC system was a vital element in the development of electricity as a readily-available source of power in that it made it possible to transport electricity economically and efficiently over long distances.

Ferraris did not benefit financially from his invention, which is still the basis of induction motors in use today. Another scientist, the Serbian-born Nikola Tesla, patented the device after moving to the United States to work for the Edison Corporation.

Tesla had been working simultaneously on creating an induction motor but there is evidence that Ferraris probably developed his first and as such is regarded by many as the unsung hero in his field.

He saw himself as a scientist rather than an entrepreneur and, although there is no suggestion that his ideas were stolen, openly invited visitors to come in and see his lab.  Unlike Tesla, he never intended to start a company to manufacture the motor and even had doubts whether it would work.

One of Ferraris's early motors, currently  in a museum in Sardinia
One of Ferraris's early motors, currently
in a museum in Sardinia
Born in Livorno Vercellese, a small town in the Vercelli province of Piedmont now known as Livorno Ferraris, Galileo Ferraris was the son of a pharmacist and the nephew of a physician in Turin, to whom he was sent at the age of 10 to obtain an education in the classics and the sciences.

Ferraris was was a graduate of the University of Turin and the Scuola d’Applicazione of Turin, emerging with a master's degree in engineering. He remained in the academic world and independently researched the rotary magnetic field.

He experimented with different types of motors and his research and his studies resulted in the development of an alternator, which converted mechanical (rotating) power into electric power as alternating current.

While Tesla sought to patent his device, Ferraris published his research in a paper to the Royal Academy of Sciences in Turin and the alternator as a source of polyphase power became key in the history of electrification, along with the power transformer.

These inventions enabled power to be transmitted by wires economically over considerable distances and electricity to be generated by harnessing the natural power of water, thus enabling power to be available in remote places.

The city of Turin marked the contributions made to science by Ferraris, who also researched in the field of optical instruments, with the creation of a permanent monument at the Royal Italian Industrial Museum of Turin (now the Royal Turin Polytechnic).  From 1934 to 2006, the "Galileo Ferraris" Electrotechnical Institute could be found in Corso Massimo d'Azeglio.

The Palazzo Chiablese di Castell'Apertole, the former Savoy hunting lodge near Livorno Ferraris
The Palazzo Chiablese di Castell'Apertole, the former
Savoy hunting lodge near Livorno Ferraris
Travel tip:

Known at different times as Livorno Piemonte as well as Livorno Vercellese, Livorno Ferraris occupies a wide area of countryside in the province of Vercelli in the plain of the Po river, bisected by the Depretis, Cavour and Ivrea canals. Located about 40km (25 miles) northeast of Turin and about 25km (16 miles) west of the city of Vercelli, it  hosted the conclave for the election of the antipope Benedict XIII in 1384. Nearby is the 18th century Palazzo Chiablese di Castell'Apertole, a former hunting lodge of the Savoy royal family.

The modern Politecnico di Torino of today
The modern Politecnico di Torino of today
Travel tip:

The Royal Turin Polytechnic can be found in Corso Duca degli Abruzzi in the centre of Turin, about 2.5km (1.5 miles) from the Royal Palace. It evolved from the Royal Italian Industrial Museum, which was established in 1862 by Royal Decree as an Italian equivalent of the South Kensington Museum of London and of the Conservatoire des Arts et Métiers of Paris, to promote industrial education and the progress of industry and trade. Parallel with Corso Duca degli Abruzzi is the Corso Galileo Ferraris, a long, straight road that links the Giardino Andrea Guglielminetti with the Stadio Olimpico Grande Torino, the home of Torino football club, a distance of 4.1km (2.5 miles).

More reading:

How Alessandro Volta invented the electric battery

Antonio Meucci - the 'true' inventor of the telephone

The physicist who tried to bring corpses back to life

Also on this day:

1929: The birth of swimmer-turned-actor Bud Spencer

1984: The death of Neapolitan dramatist Eduardo De Filippo


Home

5 March 2017

Alessandro Volta – scientist

Invention sparked wave of electrical experiments


Alessandro Volta as depicted in a painting by an unknown artist
Alessandro Volta as depicted in a painting
by an unknown artist
Alessandro Volta, who invented the first electric battery, died on this day in 1827 in Como.

His electric battery had provided the first source of continuous current and the volt, a unit of the electromotive force that drives current, was named in his honour in 1881.

Volta was born Alessandro Giuseppe Antonio Anastasio Volta in 1745 in Como.

He became professor of physics at the Royal School of Como in 1774. His interest in electricity led him to improve the electrophorus, a device that had been created to generate static electricity. He discovered and isolated methane gas in 1776, after finding it at Lake Maggiore and was then appointed to the chair of physics at the University of Pavia.

Volta was a friend of the scientist Luigi Galvani, a professor at Bologna University, whose experiments led him to announce in 1791 that the contact of two different metals with the muscle of a frog resulted in the generation of an electric current.

Italy's 10,000 lire note used to have an image of Volta on the front and the Tempio Voltiano on the reverse
Italy's 10,000 lire note used to have an image of Volta
on the front and the Tempio Voltiano on the reverse
Galvani interpreted that as a new form of electricity found in living tissue, which he called animal electricity.

Volta felt that the frog merely conducted a current that flowed between the two metals, which he called metallic electricity. He began experimenting in 1792 with metals alone and found that animal tissue was not needed to produce a current.

This provoked much controversy between the animal-electricity adherents and the metallic-electricity advocates, but Volta won the argument when he unveiled the first electric battery in 1800.

Known as the voltaic pile, or the voltaic column, Volta’s invention led to further electrical experiments.

Within six weeks, English scientists William Nicholson and Anthony Carlisle used a voltaic pile to decompose water into hydrogen and oxygen, thus discovering electrolysis and creating the field of electrochemistry.

In 1801 in Paris, Volta demonstrated the way his battery generated an electronic current in front of Napoleon, who made Volta a count and a senator of the Kingdom of Lombardy.

A statue at the University of Pavia commemorates Volta's work
A statue at the University of Pavia
commemorates Volta's work
Francis I, Emperor of Austria, made Volta director of the philosophical faculty at the University of Padua in 1815.

Volta retired in 1819 to his estate in Camnago, a frazione of Como, which is now named Camnago Volta in his honour. He died there on 5 March 1827, just after his 82nd birthday, and he was buried in Camnago Volta.

He is commemorated with a statue at the University of Pavia and another in Piazza Volta in Como. A house in the Via Brera in Milan in which he lived in the early part of the 19th century is marked with a plaque.

Travel tip:

Como, where Volta was born and died, is a city at the foot of Lake Como. It has become a popular tourist destination because it is close to the lake and has many attractive churches, gardens, museums, theatres, parks and palaces to visit. The Villa Olmo, built in neoclassical style there in 1797 by an aristocratic family, has hosted Napoleon, Ugo Foscolo, Prince Metternich, Archduke Franz Ferdinand I and Giuseppe Garibaldi, to name but a few of the eminent people who have stayed there.

Hotels in Como by Booking.com


The Tempio Voltiano by Lake Como houses a museum dedicated to the life of Alessandro Volta
The Tempio Voltiano by Lake Como houses a museum
dedicated to the life of Alessandro Volta
Travel tip:

The Tempio Voltiano is in a public garden near the side of the lake in Como and houses a museum dedicated to the life and work of Alessandro Volta. The museum has a collection of scientific instruments used by the inventor, including his early voltaic piles, and some of his personal belongings and awards he received. A picture of the temple used to be featured on the back of a 10,000 lire banknote, with Volta’s portrait on the front.